Virginia Polytechnic Institute and State University

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Visible to the public Towards Secure Networked Cyber-Physical Systems: A Theoretic Framework with Bounded Rationality

Abstract:

Securing critical networked cyber-physical systems (NCPSs) such as the power grid or transportation systems has emerged as a major national and global priority. The networked nature of such systems renders them vulnerable to a range of attacks both in cyber and physical domains as corroborated by recent threats such as the Stuxnet virus.

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Visible to the public Semi-Automated Emergency Response Systems

Abstract:

The objective of this research is to design a semi-automated, efficient, and secure emergency response system to reduce the time it takes emergency vehicles to reach their destinations, while increasing the safety of non-emergency vehicles and emergency vehicles alike. Providing route and maneuver guidance to emergency vehicles and non-emergency vehicles will make emergency travel safer and enable police and other first responders to reach and transport those in need, in less time.

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Visible to the public BEMOSS- An Agent Platform to Enable Grid-Interactive Building Operation with IoT Devices

Manisa Pipattanasomporn joined Virginia Tech's Department of Electrical and Computer Engineering as an assistant professor in 2006. She serves as one of the principal investigators (PIs) of multiple research grants from the U.S. National Science Foundation, the U.S. Department of Defense and the U.S. Department of Energy, on research topics related to smart grid, microgrid, energy efficiency, load control, renewable energy and electric vehicles. Her research interests include renewable energy systems, energy efficiency, distributed energy resources, and the smart grid.

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Visible to the public Cognitive Green Building: A Holistic Cyber-Physical Analytic Paradigm for Energy Sustainability

Abstract:

Buildings in the U.S. contribute to 39% of energy use, consume approximately 70% of the electricity, and account for 39% of CO2 emissions. Hence, developing green building architec- tures is an extremely critical component in energy sustainability. The investigators will develop a unified analytical approach for green building design that comprehensively manages energy sustainability by taking into account the complex interactions between these systems of systems, providing a high degree of security, agility and robust to extreme events.